ØDominant supermassive black hole singularities
use gravity to store energy gathered by consuming much of everything in their
galaxy clusters through accretion and merging with galaxies and other black
holes over many hundreds of billions of years.

ØIn the late stage of dominant supermassive black
hole development, the gravitational attraction between the black hole
singularity and its galaxy decreases as the singularity’s mass increases due to
its increasing distance, i.e. depth, of the black hole and the decreasing mass
of the galaxy.

ØWhen matter, energy, dark matter, and dark
energy become part of the singularity, they adopt its fundamental nature of
gravitation. Since the singularity is all energy, it can function as if it is
gravity and be accelerated to warp space at the speed of light.

ØThe function of dark energy transitions to a
complement of gravity in the latter stage of singularity acceleration.

ØA dominant supermassive black hole singularity
acts as a catalyst for dark energy to provide most of the mass for a new
universe as dark energy’s mass is added to the mass of the singularity that it
is accelerating in a space warp, leading to a big bang.

ØIf a singularity can separate from a universe at
the speed of light and if an inflation era in which the universe expansion
exceeds the speed of light are true, then a new universe forming phase
transition exists.

ØA phase transition occurs in which the laws of
the universe end, causing a naked singularity, gravitation to be suspended
resulting in a big bang, and a net gain in mass by the new universe, described
by the equation Mu=S2.C2.

ØThe physical laws of parent universe and the new
universe may or may not be the same.

ØThe singularity acceleration model posits that a
singularity of sufficient space warp speed will burst from its universe, ending
the laws of the universe, causing a big bang, and forming a new universe, in
contrast with the bouncing black hole model, which posits that when a black
hole reaches sufficient mass and compression, it will bounce, causing a big
bang and a new universe.

ØGravitation is functionally unified with all
other forces in a singularity. The phase transition from a gravity singularity
to a new universe by the big bang leads to the formation and separation of all
forms of energy and matter.

ØThe creation of new universes from our universe
is, in principle, predictable in time, approximate location, and total number.

ØIt is speculated that the first universe was
formed when subatomic quantum particles or strings formed spontaneously and in
a sufficiently concentrated space to make several micro black holes that
interacted.

ØBaryonic matter, energy, dark matter, dark
energy, and the four forces all have critical functions and optimum ratios in
the formation of universes.

ØThe evolution of universes produces universes
with laws of physics most likely to produce large black hole singularities and
more universes.

ØEach unit of mass in the universe has two possible
outcomes. It either becomes part of a dominant supermassive black hole, which
forms a new universe, or it degenerates into nothing.